neurostimulation

[Andreas] wrote in to let us know about this DIY Neurophone project. Apparently a Flanagan Neurophone uses ultrasound in some manner to transmit audio directly to the body, or nervous system? Needless to say we are a bit skeptical of anyone whose wiki page leads directly to pyramid power. In fact most of the references to this thing start rambling about some pretty pseudo-scientific theories.

At any rate, the schematic is clear and simple enough for anyone who has the parts to easily try. The only challenge might be tuning the thing with a signal generator or audio feed. So how about it, any one have a TL494 pulse-width modulation controller and want to be a guinea pig?

Until now, he has been recording his muscle movements as acoustic waveforms for real-time playback in the bodies of his research partners. This usually requires him to sit beside the subject, tethered to a machine. This tends to limit his movement, so he has invested in a new form of movement recording technology – a Kinect sensor.

Using fairly standard skeleton tracking as we have seen in some previous Kinect hacks, he has enabled himself to direct the motion of his subject by merely moving in front of the camera. The benefit of using the Kinect over wired sensors is that he can use any body part to direct his partner’s movements by simply changing how the software interprets his actions. As you can see in the video below, he uses his hands, knees, and even his head to direct the motion of his partner’s arm.

It really is a neat application of the Kinect, and we are totally digging the shaky “human marionette” effect that it produces. Since this was only an initial test of the system, expect to see some more cool stuff coming from [Choi] in the near future.

Stick around to see a quick video of the Kinect-driven neurostim rig in action.